mosesdecoder/moses/FeatureFunction.cpp

#include <stdexcept>

#include "util/check.hh"

#include "ChartHypothesis.h"
#include "ChartManager.h"
#include "FeatureFunction.h"
#include "Hypothesis.h"
#include "Manager.h"
#include "TranslationOption.h"


namespace Moses
{

PhraseBasedFeatureContext::PhraseBasedFeatureContext(const Hypothesis* hypothesis) :
  m_hypothesis(hypothesis),
  m_translationOption(m_hypothesis->GetTranslationOption()),
  m_source(m_hypothesis->GetManager().GetSource()) {}

PhraseBasedFeatureContext::PhraseBasedFeatureContext
      (const TranslationOption& translationOption, const InputType& source) :
  m_hypothesis(NULL),
  m_translationOption(translationOption),
  m_source(source) {}

const TranslationOption& PhraseBasedFeatureContext::GetTranslationOption() const
{
  return m_translationOption;
}

const InputType& PhraseBasedFeatureContext::GetSource() const 
{
  return m_source;
}

const TargetPhrase& PhraseBasedFeatureContext::GetTargetPhrase() const
{
  return m_translationOption.GetTargetPhrase();
}

const WordsBitmap& PhraseBasedFeatureContext::GetWordsBitmap() const
{
  if (!m_hypothesis) {
    throw std::logic_error("Coverage vector not available during pre-calculation");
  } 
  return m_hypothesis->GetWordsBitmap();
}


ChartBasedFeatureContext::ChartBasedFeatureContext
                        (const ChartHypothesis* hypothesis):
  m_hypothesis(hypothesis),
  m_targetPhrase(hypothesis->GetCurrTargetPhrase()),
  m_source(hypothesis->GetManager().GetSource()) {}

ChartBasedFeatureContext::ChartBasedFeatureContext(
                         const TargetPhrase& targetPhrase,
                         const InputType& source):
  m_hypothesis(NULL),
  m_targetPhrase(targetPhrase),
  m_source(source) {}

const InputType& ChartBasedFeatureContext::GetSource() const
{
  return m_source;
}

const TargetPhrase& ChartBasedFeatureContext::GetTargetPhrase() const
{
  return m_targetPhrase;
}


FeatureFunction::~FeatureFunction() {}

bool StatelessFeatureFunction::IsStateless() const
{
  return true;
}

bool StatelessFeatureFunction::ComputeValueInTranslationOption() const
{
  return false;
}

bool StatefulFeatureFunction::IsStateless() const
{
  return false;
}

}
Update phrase-based features to use context object 2012-09-19 21:00:53 +04:00			`#include <stdexcept>`
Feature function overhaul. Each feature function is computed in one of three ways: 1) Stateless feature functions from the phrase table/generation table: these are computed when the TranslationOption is created. They become part of the ScoreBreakdown object contained in the TranslationOption and are added to the feature value vector when a hypothesis is extended. 2) Stateless feature functions that are computed during state exploration. Currently, only WordPenalty falls into this category, but these functions implement a method Evaluate which do does not receive a Hypothesis or any contextual information. 3) Stateful feature functions: these features receive the arc information (translation option), compute some value and then return some context information. The context information created by a particular feature function is passed back to it as the previous context when a hypothesis originating at the node where the previous edge terminates is created. States in the search space may be recombined if the context information is identical. The context information must be stored in an object implementing the FFState interface. TODO: 1) the command line interface / MERT interface needs to go to named parameters that are otherwise opaque 2) StatefulFeatureFunction's Evaluate method should just take a TranslationOption and a context object. It is not good that it takes a hypothesis, because then people may be tempted to access information about the "previous" hypothesis without "declaring" this dependency. 3) Future cost estimates should be handled using feature functions. All stateful feature functions need some kind of future cost estimate. 4) Philipp's poor-man's cube pruning is broken. git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@2087 1f5c12ca-751b-0410-a591-d2e778427230 2009-02-06 18:43:06 +03:00
Replace assert with CHECK until people learn how to use assert properly 2011-11-18 16:07:41 +04:00			`#include "util/check.hh"`
Feature function overhaul. Each feature function is computed in one of three ways: 1) Stateless feature functions from the phrase table/generation table: these are computed when the TranslationOption is created. They become part of the ScoreBreakdown object contained in the TranslationOption and are added to the feature value vector when a hypothesis is extended. 2) Stateless feature functions that are computed during state exploration. Currently, only WordPenalty falls into this category, but these functions implement a method Evaluate which do does not receive a Hypothesis or any contextual information. 3) Stateful feature functions: these features receive the arc information (translation option), compute some value and then return some context information. The context information created by a particular feature function is passed back to it as the previous context when a hypothesis originating at the node where the previous edge terminates is created. States in the search space may be recombined if the context information is identical. The context information must be stored in an object implementing the FFState interface. TODO: 1) the command line interface / MERT interface needs to go to named parameters that are otherwise opaque 2) StatefulFeatureFunction's Evaluate method should just take a TranslationOption and a context object. It is not good that it takes a hypothesis, because then people may be tempted to access information about the "previous" hypothesis without "declaring" this dependency. 3) Future cost estimates should be handled using feature functions. All stateful feature functions need some kind of future cost estimate. 4) Philipp's poor-man's cube pruning is broken. git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@2087 1f5c12ca-751b-0410-a591-d2e778427230 2009-02-06 18:43:06 +03:00
Context for stateless chart ffs 2012-09-21 14:56:01 +04:00			`#include "ChartHypothesis.h"`
			`#include "ChartManager.h"`
Update phrase-based features to use context object 2012-09-19 21:00:53 +04:00			`#include "FeatureFunction.h"`
			`#include "Hypothesis.h"`
			`#include "Manager.h"`
			`#include "TranslationOption.h"`


run beautify.perl. Consistent formatting for .h & .cpp files git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@3901 1f5c12ca-751b-0410-a591-d2e778427230 2011-02-24 16:14:42 +03:00			`namespace Moses`
			`{`
Feature function overhaul. Each feature function is computed in one of three ways: 1) Stateless feature functions from the phrase table/generation table: these are computed when the TranslationOption is created. They become part of the ScoreBreakdown object contained in the TranslationOption and are added to the feature value vector when a hypothesis is extended. 2) Stateless feature functions that are computed during state exploration. Currently, only WordPenalty falls into this category, but these functions implement a method Evaluate which do does not receive a Hypothesis or any contextual information. 3) Stateful feature functions: these features receive the arc information (translation option), compute some value and then return some context information. The context information created by a particular feature function is passed back to it as the previous context when a hypothesis originating at the node where the previous edge terminates is created. States in the search space may be recombined if the context information is identical. The context information must be stored in an object implementing the FFState interface. TODO: 1) the command line interface / MERT interface needs to go to named parameters that are otherwise opaque 2) StatefulFeatureFunction's Evaluate method should just take a TranslationOption and a context object. It is not good that it takes a hypothesis, because then people may be tempted to access information about the "previous" hypothesis without "declaring" this dependency. 3) Future cost estimates should be handled using feature functions. All stateful feature functions need some kind of future cost estimate. 4) Philipp's poor-man's cube pruning is broken. git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@2087 1f5c12ca-751b-0410-a591-d2e778427230 2009-02-06 18:43:06 +03:00
Update phrase-based features to use context object 2012-09-19 21:00:53 +04:00			`PhraseBasedFeatureContext::PhraseBasedFeatureContext(const Hypothesis* hypothesis) :`
			`m_hypothesis(hypothesis),`
			`m_translationOption(m_hypothesis->GetTranslationOption()),`
			`m_source(m_hypothesis->GetManager().GetSource()) {}`

			`PhraseBasedFeatureContext::PhraseBasedFeatureContext`
			`(const TranslationOption& translationOption, const InputType& source) :`
			`m_hypothesis(NULL),`
			`m_translationOption(translationOption),`
			`m_source(source) {}`

			`const TranslationOption& PhraseBasedFeatureContext::GetTranslationOption() const`
			`{`
			`return m_translationOption;`
			`}`

			`const InputType& PhraseBasedFeatureContext::GetSource() const`
			`{`
			`return m_source;`
			`}`

			`const TargetPhrase& PhraseBasedFeatureContext::GetTargetPhrase() const`
			`{`
			`return m_translationOption.GetTargetPhrase();`
			`}`

			`const WordsBitmap& PhraseBasedFeatureContext::GetWordsBitmap() const`
			`{`
			`if (!m_hypothesis) {`
			`throw std::logic_error("Coverage vector not available during pre-calculation");`
			`}`
			`return m_hypothesis->GetWordsBitmap();`
			`}`


Context for stateless chart ffs 2012-09-21 14:56:01 +04:00			`ChartBasedFeatureContext::ChartBasedFeatureContext`
			`(const ChartHypothesis* hypothesis):`
			`m_hypothesis(hypothesis),`
			`m_targetPhrase(hypothesis->GetCurrTargetPhrase()),`
			`m_source(hypothesis->GetManager().GetSource()) {}`

			`ChartBasedFeatureContext::ChartBasedFeatureContext(`
			`const TargetPhrase& targetPhrase,`
			`const InputType& source):`
			`m_hypothesis(NULL),`
			`m_targetPhrase(targetPhrase),`
			`m_source(source) {}`

			`const InputType& ChartBasedFeatureContext::GetSource() const`
			`{`
			`return m_source;`
			`}`

			`const TargetPhrase& ChartBasedFeatureContext::GetTargetPhrase() const`
			`{`
			`return m_targetPhrase;`
			`}`


Update phrase-based features to use context object 2012-09-19 21:00:53 +04:00
Feature function overhaul. Each feature function is computed in one of three ways: 1) Stateless feature functions from the phrase table/generation table: these are computed when the TranslationOption is created. They become part of the ScoreBreakdown object contained in the TranslationOption and are added to the feature value vector when a hypothesis is extended. 2) Stateless feature functions that are computed during state exploration. Currently, only WordPenalty falls into this category, but these functions implement a method Evaluate which do does not receive a Hypothesis or any contextual information. 3) Stateful feature functions: these features receive the arc information (translation option), compute some value and then return some context information. The context information created by a particular feature function is passed back to it as the previous context when a hypothesis originating at the node where the previous edge terminates is created. States in the search space may be recombined if the context information is identical. The context information must be stored in an object implementing the FFState interface. TODO: 1) the command line interface / MERT interface needs to go to named parameters that are otherwise opaque 2) StatefulFeatureFunction's Evaluate method should just take a TranslationOption and a context object. It is not good that it takes a hypothesis, because then people may be tempted to access information about the "previous" hypothesis without "declaring" this dependency. 3) Future cost estimates should be handled using feature functions. All stateful feature functions need some kind of future cost estimate. 4) Philipp's poor-man's cube pruning is broken. git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@2087 1f5c12ca-751b-0410-a591-d2e778427230 2009-02-06 18:43:06 +03:00			`FeatureFunction::~FeatureFunction() {}`

run beautify.perl. Consistent formatting for .h & .cpp files git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@3901 1f5c12ca-751b-0410-a591-d2e778427230 2011-02-24 16:14:42 +03:00			`bool StatelessFeatureFunction::IsStateless() const`
			`{`
			`return true;`
			`}`
fix setting sourcePhrase, enable stateless ff for chart, add EvaluateChart to stateless ff, revert glmu to stateless ff, Evaluate gets hypothesis instead of target phrase, swd/twi/wt features implemented for chart (w/o context features) 2012-04-09 23:47:51 +04:00
run beautify.perl. Consistent formatting for .h & .cpp files git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@3901 1f5c12ca-751b-0410-a591-d2e778427230 2011-02-24 16:14:42 +03:00			`bool StatelessFeatureFunction::ComputeValueInTranslationOption() const`
			`{`
Feature function overhaul. Each feature function is computed in one of three ways: 1) Stateless feature functions from the phrase table/generation table: these are computed when the TranslationOption is created. They become part of the ScoreBreakdown object contained in the TranslationOption and are added to the feature value vector when a hypothesis is extended. 2) Stateless feature functions that are computed during state exploration. Currently, only WordPenalty falls into this category, but these functions implement a method Evaluate which do does not receive a Hypothesis or any contextual information. 3) Stateful feature functions: these features receive the arc information (translation option), compute some value and then return some context information. The context information created by a particular feature function is passed back to it as the previous context when a hypothesis originating at the node where the previous edge terminates is created. States in the search space may be recombined if the context information is identical. The context information must be stored in an object implementing the FFState interface. TODO: 1) the command line interface / MERT interface needs to go to named parameters that are otherwise opaque 2) StatefulFeatureFunction's Evaluate method should just take a TranslationOption and a context object. It is not good that it takes a hypothesis, because then people may be tempted to access information about the "previous" hypothesis without "declaring" this dependency. 3) Future cost estimates should be handled using feature functions. All stateful feature functions need some kind of future cost estimate. 4) Philipp's poor-man's cube pruning is broken. git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@2087 1f5c12ca-751b-0410-a591-d2e778427230 2009-02-06 18:43:06 +03:00			`return false;`
			`}`
fix setting sourcePhrase, enable stateless ff for chart, add EvaluateChart to stateless ff, revert glmu to stateless ff, Evaluate gets hypothesis instead of target phrase, swd/twi/wt features implemented for chart (w/o context features) 2012-04-09 23:47:51 +04:00
run beautify.perl. Consistent formatting for .h & .cpp files git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@3901 1f5c12ca-751b-0410-a591-d2e778427230 2011-02-24 16:14:42 +03:00			`bool StatefulFeatureFunction::IsStateless() const`
			`{`
			`return false;`
			`}`
Feature function overhaul. Each feature function is computed in one of three ways: 1) Stateless feature functions from the phrase table/generation table: these are computed when the TranslationOption is created. They become part of the ScoreBreakdown object contained in the TranslationOption and are added to the feature value vector when a hypothesis is extended. 2) Stateless feature functions that are computed during state exploration. Currently, only WordPenalty falls into this category, but these functions implement a method Evaluate which do does not receive a Hypothesis or any contextual information. 3) Stateful feature functions: these features receive the arc information (translation option), compute some value and then return some context information. The context information created by a particular feature function is passed back to it as the previous context when a hypothesis originating at the node where the previous edge terminates is created. States in the search space may be recombined if the context information is identical. The context information must be stored in an object implementing the FFState interface. TODO: 1) the command line interface / MERT interface needs to go to named parameters that are otherwise opaque 2) StatefulFeatureFunction's Evaluate method should just take a TranslationOption and a context object. It is not good that it takes a hypothesis, because then people may be tempted to access information about the "previous" hypothesis without "declaring" this dependency. 3) Future cost estimates should be handled using feature functions. All stateful feature functions need some kind of future cost estimate. 4) Philipp's poor-man's cube pruning is broken. git-svn-id: https://mosesdecoder.svn.sourceforge.net/svnroot/mosesdecoder/trunk@2087 1f5c12ca-751b-0410-a591-d2e778427230 2009-02-06 18:43:06 +03:00
			`}`